Related Manuals for HP 10504
Summary of Contents for HP 10504
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Page 1: Installation Guide
HP 10500 Switch Series Installation Guide Part number: 5998-2181 Document version: 6W109-20140820... - Page 2 The only warranties for HP products and services are set forth in the express warranty statements accompanying such products and services. Nothing herein should be construed as constituting an additional warranty.
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Page 3: Table Of Contents
Contents Preparing for installation ············································································································································· 1 Safety recommendations ·················································································································································· 1 General safety recommendations ··························································································································· 1 Electricity safety ························································································································································ 1 Handling safety ························································································································································ 2 ESD prevention ························································································································································· 2 Laser safety ································································································································································ 2 Examining the installation site ········································································································································· 2 ... - Page 4 Replacing a CFP module ······································································································································ 54 Replacing an SFP+/QSFP+/QSFP+ to SFP+ cable ··························································································· 54 Support and other resources ····································································································································· 56 Contacting HP ································································································································································ 56 Subscription service ·············································································································································· 56 Related information ························································································································································ 56 Documents ······························································································································································ 56 ...
- Page 5 Fan tray power consumption ································································································································ 63 System power consumption ·································································································································· 64 Heat dissipation ····························································································································································· 64 Environmental specifications ········································································································································· 64 Noise ··············································································································································································· 64 Appendix B FRUs and compatibility matrixes ·········································································································· 66 MPUs ··············································································································································································· 66 LPUs ·················································································································································································...
- Page 6 Index ········································································································································································ 104 ...
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Page 7: Preparing For Installation
BJNGA-AC0006 IMPORTANT: For regulatory identification purposes, the switches are assigned regulatory model numbers (RMNs). The RMNs should not be confused with the marketing name HP 105XX, or product codes JC611A, JC612A, JC613A, JC748A, JG820A, JG821A, JG822A, and JG823A. Safety recommendations To avoid possible bodily injury and equipment damage, read all safety recommendations carefully before installation. -
Page 8: Handling Safety
Do not stare into any fiber port when the switch has power. The laser light emitted from the optical fiber might hurt your eyes. Examining the installation site The HP 10500 switches must be used indoors. To ensure correct operation and long service life of your switch, the installation site must meet the requirements in this section. Weight support Make sure the floor can support the total weight of the rack, chassis, cards, power supplies, and all other components. -
Page 9: Temperature
Temperature CAUTION: To avoid short circuits, if condensation appears on the chassis when you move it to a high-temperature environment, dry the chassis before powering it on. To ensure correct operation of the switch, make sure the room temperature meets the requirements Table Table 2 Temperature requirements Temperature... -
Page 10: Emi
Table 5 Harmful gas limits in an equipment room Max. (mg/m 0.006 0.05 0.01 All electromagnetic interference (EMI) sources, from outside or inside of the switch and application system, adversely affect the switch in the following ways: A conduction pattern of capacitance coupling. •... -
Page 11: Cooling
Verify that the power system at the installation site meets the requirements of the power supplies, including the input method and rated input voltage. Cooling Plan the installation site for adequate ventilation. A minimum of 10 cm (3.94 in) of clearance is reserved at the inlet and outlet air vents. •... -
Page 12: Space
Figure 2 Airflow through other 10500 switch chassis (1) Power supply air intake vents (2) Power supply air exhaust vents (3) Chassis air intake vents (4) Chassis air exhaust vents Space For easy maintenance, follow these guidelines: A minimum of 10 cm (3.94 in) of clearance is reserved between the rack and walls or other devices. •... - Page 13 Category Tool ESD wrist strap, hair brush, tweezers, paper knife, hand bellows, electric iron, Auxiliary tools solder wire, ladder, cable stripper, vacuum cleaner, crowbar, and rubber hammer Tools for fiber-optic cleaning Lint-free paper and optical fiber microscope Multimeter, 500 V Megohmmeter for measuring the insulation resistance, error Equipment detector, optical power meter, and earth resistance tester...
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Page 14: Installing The Switch
The slide rails can support the weight of the switch. For the weights of the 10500 switches, see • "Appendix A Chassis views and technical specifications." HP recommends that you order the HP X421 A-Series Chassis Universal 4-Post Rack Mounting Kit (JC665A). For more information about the kit, see "Appendix B FRUs and compatibility matrixes."... - Page 15 Identify the chassis and slide rail positions for the switch. For the height and other specifications, see "Appendix A Chassis views and technical specifications." Slide rail installation varies by rack type. This section uses the slide rails in the HP rack mounting kit (JC665A) as an example. To install a slide rail:...
- Page 16 NOTE: One rack unit has three holes, the middle of which is an auxiliary installation hole, and the other two are standard installation holes. You can distinguish them by the space between each two holes. The space between a standard installation hole and an auxiliary installation hole is wider than that between two adjacent standard installation holes.
- Page 17 Figure 6 Attaching the slide rail to the cage nuts with screws Keep the slide rail horizontally and adjust its length until the installation holes on the rear end of the slide rail touch the cage nuts on the rear rack post. Then screw in screws and fasten. TIP: Install a screw in each mounting hole of the slide rail to ensure its weight bearing capacity.
- Page 18 Figure 7 Installed slide rails Installing cage nuts To install cage nuts to the front square-holed brackets of the rack: Determine the placement of the cage nuts, depending on holes in the mounting brackets and the mounting position of the slide rails, as shown in Figure Install cage nuts on the square holes on each rack post, as shown in Figure...
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Page 19: Installing Mounting Brackets And Cable Management Brackets
Figure 8 Installing cage nuts (10508 as an example) (1) Cage nuts Installing mounting brackets and cable management brackets Before installing the switch to the rack, install the cable management brackets and mounting brackets shipped with the switch. Cable management brackets are used for securing and organizing signal cables and power cords on the switch, and mounting brackets are used for attaching the chassis to the rack. - Page 20 The power cord management brackets of the 10504 have a slightly different structure, and installed • in a similar procedure. For more information, see Figure To install a cable management bracket: Unpack the cable management brackets. Attach the cable management bracket to the chassis, and align the screws with the mounting holes...
- Page 21 Figure 10 Attaching cable management brackets to a 10504 (1) Attach the cable management bracket to the chassis. (2) Mounting holes for installing the cable management bracket. (3) Screws for attaching the cable management bracket to the chassis. (4) Power cord management bracket (installed at the lower part of the chassis).
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Page 22: Mounting The Switch In The Rack
HP recommends that you use a mechanical lift for moving your switch. Place the switch on the slide rails and slide the switch along the slide rails until the mounting... -
Page 23: Mounting The Switch On A Workbench Or Floor
These parts are not designed for weight support. Any attempt to carry the chassis with these parts might cause equipment damage or even bodily injury. This task requires a minimum of two people. HP recommends that you use a mechanical lift to move the chassis. -
Page 24: Grounding The Switch
Hold the handles on the chassis or support the chassis bottom and steadily move the chassis to the workbench or floor. Gently put the chassis on the workbench or floor. Attach the L-shaped brackets to the workbench or floor with wall anchors. Figure 14 Attaching L-shaped brackets with wall anchors (1) Fastening screw (2) L-shaped bracket... -
Page 25: Grounding The Switch Through The Pe Wire Of An Ac Power Supply
Remove the grounding screws from the grounding holes at the rear of the chassis, as shown by callout 2 in Figure Fasten the grounding screws, which are attached with the dual-hole terminals of the grounding cable, into the grounding holes of the chassis. Connect the ring terminal of the grounding cable to the grounding post of the grounding strip, and fasten the grounding cable to the grounding strip with the hex nut. -
Page 26: Grounding The Switch Through The Rtn Wire Of A Dc Power Supply
Figure 16 Grounding the switch through the PE wire of the AC power supply Grounding the switch through the RTN wire of a DC power supply CAUTION: Make sure the RTN wire is reliably grounded from the DC egress of the DC power cabinet. If the switch is powered by a –48 VDC power supply and no grounding strip is available at the installation site, you can ground the switch through the return (RTN) wire of the DC power supply, as shown in... -
Page 27: Installing Frus
Installing FRUs There is no required order for installing FRUs. HP recommends that you connect power cords after installing all required FRUs. TIP: Keep the chassis and component packages for future use. Attaching an ESD wrist strap The switch provides an ESD wrist strap. To minimize ESD damage to electronic components, wear the ESD wrist strap and make sure it is reliably grounded when installing modules. -
Page 28: Installing Mpus/Lpus/Switching Fabric Modules
Figure 18 Attaching an ESD wrist strap (on a 10508) (1) ESD socket (having an ESD mark) Installing MPUs/LPUs/switching fabric modules IMPORTANT: Before installing a card to the chassis, make sure the connectors on the card are not broken or blocked •... -
Page 29: Installing A Power Supply
As shown by callout 2 in Figure 19, hold the card by the front panel with one hand and support the card bottom with the other. Slide the card steadily into the slot along the guide rails. When most part of the card is inserted in the slot, press the ejector levers on the card outward. Push the card until the positioning pin on card touches the hole on the chassis. - Page 30 The power supply slots are horizontal on a 10504 switch and vertical on a 10508, 10508-V, or 10512 switch. Strictly follow the order shown in Figure 20 to avoid security hazards. Figure 20 Power supply installation flow AC and DC power supplies are installed in the same way. This section uses an AC power supply as an example.
- Page 31 Figure 21 Installing an AC power supply in a vertical slot (1) Install the power supply to the chassis. (2) Fasten the captive screw.
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Page 32: Connecting The Power Cord
(10508, 10508-V, and 10512). Figure 24 shows how to connect the power cord for a horizontal slot switch (10504). Connect the other end of the power cord to the AC power receptacle of the power source and switch on the circuit breaker. -
Page 33: Connecting A Dc Power Cord
Figure 23 Securing the power cord (vertical slot) Figure 24 Securing the power cord (horizontal slot) Connecting a DC power cord WARNING! • Make sure each power cord has a separate circuit breaker. Before you connect the power cord, make sure the circuit breaker on the power cord is switched off. •... -
Page 34: Installing A Transceiver Module (Optional)
Figure 25 Connecting the power cord (vertical slot) (1) Insert the power cord plug into the power supply. (2) Fasten the screw. (Optional.) Use a cable tie to secure the power cord to the cable management bracket. For more information, see Figure 23 Figure Connect one end of the blue DC power cord marked –48V to the negative terminal (–48V) on the... -
Page 35: Installing A Cfp Module
Connect the fiber to the module. For the installation procedure, see "Connecting your switch to the network." Figure 26 Installing an XFP/SFP+/SFP/QSFP+ module Installing a CFP module Wear an ESD wrist strap and make sure it makes good skin contact and is reliably grounded. For more information, see "Attaching an ESD wrist strap."... - Page 36 Wear an ESD wrist strap and make sure it makes good skin contact and is reliably grounded. For more information, see "Attaching an ESD wrist strap." Unpack the cable. Connect the cable connector to the port. Make sure the cable connector is the right side up. The bend radius of the cable must be a minimum of eight times the cable diameter.
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Page 37: Setting Up An Irf Fabric
Setting up an IRF fabric You can use HP IRF technology to connect and virtualize the switches into a large virtual switch called an "IRF fabric" for flattened network topology, high availability, scalability, and manageability. For more information about IRF, see HP 10500 Switch Series IRF Configuration Guide. -
Page 38: Planning Irf Fabric Setup
Plan IRF fabric size and the installation site, using the following procedure: Use HP 10500 Switch Series IRF Configuration Guide as a reference to identify the number of member switches that your system software version supports for an IRF fabric. -
Page 39: Identifying The Master Switch And Planning Irf Member Ids
For more information about master election, see HP 10500 Switch Series IRF Configuration Guide. Prepare an IRF member ID assignment scheme. An IRF fabric uses member IDs to uniquely identify and manage its members, and you must assign each IRF member switch a unique member ID. -
Page 40: Configuring Basic Irf Settings
• Execute the display irf configuration command to verify the basic IRF settings. • For more information about configuring basic IRF settings, see HP 10500 Switch Series IRF Configuration Guide. Connecting the physical IRF ports Follow these guidelines when selecting transceiver modules and cables: Use XFP transceiver modules and fibers to connect XFP ports. -
Page 41: Verifying The Irf Fabric Configuration
Create a Layer 3 interface, assign it an IP address, and make sure the IRF fabric and the remote network management station can reach each other. Use Telnet or SNMP to access the IRF fabric from the network management station. (See HP 10500 Switch Series Fundamentals Configuration Guide.) Verify that you can manage all member switches as if they were one node. -
Page 42: Connecting Your Switch To The Network
Telnet or SSH for remote access through Ethernet ports. You manage console login users at AUX user interfaces, and manage Telnet and SSH users at VTY user interfaces. For more information about login methods and user interfaces, see HP 10500 Switch Series Fundamentals Configuration Guide. -
Page 43: Setting Terminal Parameters
Figure 30 Connecting a console port to a terminal Setting terminal parameters To configure and manage the switch, you must run a terminal emulator program on the console terminal. If your PC runs Windows 2003 Server, add the HyperTerminal component before performing the following steps to log in to and manage the switch. - Page 44 Figure 31 Connection description Select the serial port to be used from the Connect using list, and click OK. Figure 32 Setting the serial port used by the HyperTerminal connection Set Bits per second to 9600, Data bits to 8, Parity to None, Stop bits to 1, and Flow control to None, and click OK.
- Page 45 Figure 33 Setting the serial port parameters Select File > Properties in the HyperTerminal window. Figure 34 HyperTerminal window On the Settings tab, set the emulation to VT100 and click OK.
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Page 46: Powering On The Switch
Figure 35 Setting terminal emulation in Switch Properties dialog box Powering on the switch Before powering on the switch, verify the following items: • You know where the emergency power-off switch for the equipment room is located. The switch has been securely mounted. •... -
Page 47: Configuring The Switch
**************************************************************************** BootWare, Version 1.00 **************************************************************************** Compiled Date : Jul 1 2010 CPU Type : XLS408 CPU L1 Cache : 32KB CPU Clock Speed : 1000MHz Memory Type : DDR2 SDRAM Memory Size : 1024MB Memory Speed : 533MHz BootWare Size : 508KB Flash Size : 128MB... -
Page 48: Configuring Authentication On A User Interface
For more information about login methods, see HP 10500 Switch Series Fundamentals Configuration Guide. Configuring the basic access function The switch without any configuration can perform basic data forwarding immediately after it is plugged into a network. -
Page 49: Connecting The Switch To The Network
Task Command Display the IP configuration of Layer 3 interfaces. display ip interface brief Display information about active routes in the routing table. display ip routing-table Display VLAN settings. display vlan Display the spanning tree status and statistics. display stp brief Connecting the switch to the network Before you connect the switch to the network, verify that all its basic settings are correct. -
Page 50: Testing Connectivity
Figure 37 Using an MPO optical fiber connector to connect a QSFP+ module MPO plug QSFP+ module Testing connectivity After you connect the switch to the network, use the ping or tracert command to test network connectivity. For more information about these commands, see HP 10500 Switch Series Command References. -
Page 51: Troubleshooting
• For more information about the LED status on the LPU, see "Appendix C LEDs." If you cannot locate failures by following the guidelines in this chapter, contact HP Support. For more information, see "Support and other resources." Configuration terminal problems If the configuration environment setup is correct, the configuration terminal displays boot information when the switch is powered on. -
Page 52: Garbled Terminal Display
Garbled terminal display If terminal display is garbled, verify that the following settings are configured for the terminal, for example, HyperTerminal: • Baud rate—9,600. Data bits—8. • Parity—none. • Stop bits—1. • Flow control—none. • When you modify the settings for the console port of the switch, configure the same settings for the console terminal. -
Page 53: Fan Failure
If the new power supply can operate correctly, the old power supply has failed. You must replace the old power supply. If the problem persists, contact HP Support. Fan failure Both the MPU and the fan tray provide the fan tray LEDs, including an OK LED and a FAIL LED. When the fan tray operates correctly, the OK LED is on, and the FAIL LED is off. -
Page 54: Interface Failure
If the switch has empty card slots, install the card in an empty card slot, and verify that the card can operate correctly. If the problem persists, contact HP Support. Interface failure The interfaces provided by MPUs and LPUs all have corresponding LEDs. When an interface connected to the network operates correctly, the corresponding LED is on. - Page 55 After an interface fails, if the switch has an idle interface of the same type, you can connect the cable to the idle interface. Verify that the speed and duplex settings of the interfaces of a link are the same. Make sure two interfaces can operate together. If the problem persists, contact HP Support.
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Page 56: Replacement Procedures
Replacement procedures CAUTION: When replacing FRUs while the switch is running, be aware of electrical safety hazards. The switch uses a modular, hot-swappable architecture, and supports FRUs. You can replace any of FRUs when the switch is running. Replacing a power supply WARNING! Follow the procedures shown in Figure 38... -
Page 57: Replacing A Card
Put the removed power supply on the antistatic mat. Install a new power supply. For the installation procedures, see "Installing FRUs." Figure 40 Removing the power supply (1) Loosen the captive screw (2) Pull the power supply out Replacing a card The cards can be installed in horizontal or vertical slots, and the replacement procedures are the same. -
Page 58: Replacing A Fan Tray
The fan tray removal and installation procedures for all 10500 switches are the same, even though the fan tray slot is vertically oriented for the 10504, 10508, and 10512 switches and horizontally oriented for the 10508-V switch. This section describes removing and installing a vertically oriented fan tray on a... -
Page 59: Removing A Fan Tray
Removing a fan tray CAUTION: To ensure good ventilation, install a new fan tray within 2 minutes after removing the old one. To remove a fan tray: Prepare an antistatic mat to place the fan tray to be removed. Put on an ESD wrist strap and make sure the wrist strap makes good skin contact and is reliably grounded. -
Page 60: Replacing A Transceiver Module
Holding the handle of the fan tray with one hand and supporting bottom with the other, gently slide the fan tray along the guide rails into the slot until it is firmly secured in the slot. Fasten the captive screws on the fan tray. Replacing a transceiver module WARNING! When you install or remove a transceiver module:... - Page 61 Install a new cable. For the installation procedures, see "Installing FRUs." The bend radius of the cable must be a minimum of eight times the cable diameter. If the cable cannot be removed or installed, verify that the removal or installation process was followed correctly.
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Page 62: Support And Other Resources
Related information Documents To find related documents, browse to the Manuals page of the HP Business Support Center website: http://www.hp.com/support/manuals For related documentation, navigate to the Networking section, and select a networking category. •... -
Page 63: Conventions
Conventions This section describes the conventions used in this documentation set. Command conventions Convention Description Boldface Bold text represents commands and keywords that you enter literally as shown. Italic Italic text represents arguments that you replace with actual values. Square brackets enclose syntax choices (keywords or arguments) that are optional. Braces enclose a set of required syntax choices separated by vertical bars, from which { x | y | ... - Page 64 Network topology icons Represents a generic network device, such as a router, switch, or firewall. Represents a routing-capable device, such as a router or Layer 3 switch. Represents a generic switch, such as a Layer 2 or Layer 3 switch, or a router that supports Layer 2 forwarding and other Layer 2 features.
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Page 65: Appendix A Chassis Views And Technical Specifications
Both MPUs and MPU slots are pink (2) MPU slots You must install a minimum of one MPU. edged for easy identification. • The 10504 has four power supply slots. (3) Power supply slots • The 10508, 10508-V, and 10512... -
Page 66: Weights And Dimensions
Section Description Remarks Location of the fan tray slot: • 10504, 10508, and 10512—Left Every 10500 switch comes with one or two fan (4) Fan tray slot rear of the chassis trays. You do not need to order fan trays. - Page 67 Power Supply Table 15 Fan tray weights and dimensions Fan tray Weight Height Width Depth 10504 fan tray 4.7 kg (10.36 lb) 106 mm (4.17 in) 255 mm (10.04 in) 643 mm (25.32 in) 10508 fan tray 6.95 kg (15.32 lb) 112 mm (4.41 in)
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Page 68: Module Power Consumption And System Power Consumption
Fan tray Weight Height Width Depth 10508-V fan tray 8.3 kg (18.30 lb) 80 mm (3.15 in) 440 mm (17.32 in) 654 mm (25.75 in) 10512 upper fan 4.49 kg (9.90 lb) 84 mm (3.31 in) 301 mm (11.85 in) 646 mm (25.43 in) tray 10512 lower fan... -
Page 69: Fan Tray Power Consumption
Table 17 shows the power consumption of different fan trays. Table 17 Fan tray power consumption Minimum fan tray power Maximum fan tray power Model consumption consumption 10504 12 W 240 W 10508 11 W 234 W 10508-V 13 W... -
Page 70: System Power Consumption
For more information, see Table Table 19 Sound pressure levels Sound pressure level under Sound pressure level when the Model acceptable temperature fan tray operates at full speed 10504 62.3 dBA 75.5 dBA 10508 63 dBA 75.8 dBA 10508-V 61.6 dBA... - Page 71 Sound pressure level under Sound pressure level when the Model acceptable temperature fan tray operates at full speed 10512 66 dBA 79 dBA...
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Page 72: Appendix B Frus And Compatibility Matrixes
Product code HP description JC614A HP 10500 Main Processing Unit LSU1SUPA0 JG375A HP 10500 TAA-compliant Main Processing Unit HP 10500 Type A Main Processing Unit with Comware V7 Operating LSU1SUPB0 JG496A System LPUs The LPUs in Table 22 are compatible with all 10500 switches. - Page 73 Table 22 LPU specifications Number of Interface transmission Available transceiver LPU model Connector interfaces rate modules • 10-Gigabit SFP+ module LSU1TGS16SC0 10 Gbps, 1 Gbps • 10-Gigabit SFP+ cable • Gigabit SFP module • 10-Gigabit SFP+ module LSU1TGS8SE0 10 Gbps, 1 Gbps •...
- Page 74 Number of Interface transmission Available transceiver LPU model Connector interfaces rate modules LSU1GT48EA0 RJ-45 10/100/1000 Mbps • Gigabit SFP module LSU1GP48EA0 1000/100 Mbps • 100-Mbps SFP module • Gigabit SFP module 1000/100 Mbps • 100-Mbps SFP module LSU1GP24TXEA0 10 Gbps 10-Gigabit XFP module RJ-45 10/100/1000 Mbps...
- Page 75 • The LSU1TGS48SF0 (JC756A) does not support the HP X130 10G SFP+ LC LRM Transceiver (JD093B) and the HP X240 10G SFP+ SFP+ 7m Direct Attach Copper Cable (JC784C). HP 10500_7500 20G Unified Wired-WLAN Module For more information about LSU3WCMD0, see •...
- Page 76 HP 10500 16-port GbE SFP /8-port GbE Combo / 2-port 10-GbE XFP EA JC621A Module LSU1GP24TXEA0 JG380A HP 10500 16-port GbE SFP / 8-port GbE Combo / 2-port 10GbE XFP EA TAA-compliant Module JC624A HP 10500 4-port 10-GbE XFP EA Module LSU1TGX4EA0...
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Page 77: Switching Fabric Modules
• A-type and B-type switching fabric modules for the 10504 and 10508 switches can be used in the same chassis, but the performance of B-type modules will be reduced to match the performance of A-type's. The switching fabric modules provide a console port for HP Support to maintain the switches. Do not use •... -
Page 78: Power Supplies
Power Supply (JC747A). The HP 10500 2500W AC Power Supply is an AC-input, DC-output power supply and provides a maximum DC output power of 2500 W. The HP 10500 2400W DC Power Supply is a DC-input, DC-output power supply that provides a maximum DC output power of 2400 W. -
Page 79: Mounting Accessories
Assembly Mounting accessories Before installing the switch to the rack, install slide rails to the rack. You can order an HP X421 A-Series Chassis Universal 4-Post Rack Mounting Kit (JC665A), which is referred to as "the rack mounting kit" in this document. - Page 80 (μm) distance (nm) (MHz*km) 300 m (984.25 2000 50/125 82 m (269.03 ft) HP X130 10G XFP LC SR JD117B Transceiver 66 m(216.54 ft) 33 m (108.27 ft) 62.5/125 26 m (85.30 ft) HP X130 10G XFP LC LR 10 km (6.21...
- Page 81 Cable length HP X240 10G SFP+ SFP+ 1.2m Direct Attach JD096C 1.2 m (3.94 ft) Copper Cable HP X240 10G SFP+ SFP+ 3m Direct Attach Copper JD097C 3 m (9.84 ft) Cable HP X240 10G SFP+ SFP+ 5m Direct Attach Copper JG081C 5 m (16.40 ft)
- Page 82 JD089B 100 m (328.08 ft) RJ45 T Transceiver twisted pair 550 m (1804.46 ft) 50/125 500 m (1640.42 ft) HP X120 1G SFP LC JD118B SX Transceiver 275 m (902.23 ft) 62.5/125 220 m (721.78 ft) 9/125 10 km (6.21 miles)
- Page 83 70 km (43.50 miles) Transceiver IMPORTANT: You must use the HP X120 1G SFP LC BX 10-U Transceiver (JD098B) and the HP X120 1G SFP LC BX • 10-D Transceiver (JD099B) in pairs. The 100/1000-Mbps SFP port of a combo interface does not support transceiver module JD089B.
- Page 84 1310nm Transceiver IMPORTANT: All Comware V7 software versions (with the version number R2XXX) support the HP X140 40G QSFP+ LC LR4 SM 10km 1310nm Transceiver (JG661A). For the Comware V5 software versions (with the version number R1XXX), only Release 1208P03 and later versions support this type of transceiver module.
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Page 85: Dc Power Cord
10km SM Transceiver miles) 1304.58 1309.14 DC power cord DC power cords are used for connecting the HP 10500 2400W DC power supply to the external DC power supply system. Table 37 DC power cord specifications DC power cord Description... -
Page 86: Appendix C Leds
Appendix C LEDs Table 38 lists the LEDs available for you to monitor module status. Table 38 LEDs at a glance LEDs LEDs: • Management Ethernet port LEDs • Fan LEDs • Card LEDs • MPU active/standby status LED LEDs: •... - Page 87 Each MPU provides two sets of LEDs (OK and FAIL) to indicate the status of two fan trays (FAN0 and FAN1). The 10504, 10508, and 10508-V switches have only one fan tray. The LED for the fan tray is the FAN0 LED on the MPU.
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Page 88: Lpu Leds
NOTE: When the RUN LED flashes four times per second, the card is loading software. If the indicator flashes • in this state continuously, the card is not compatible with the switch software. The ALM LED for an LPU lights for a period of time at the initial phase of the system startup. •... -
Page 89: Switching Fabric Module Leds
Table 45 SFP+ port LED description LED status Description Flashing yellow The SFP+ port is receiving or sending data at 100/1000 Mbps. Flashing green The SFP+ port is receiving or sending data at 10 Gbps. Steady yellow A 100/1000 Mbps link is present. Steady green A 10 Gbps link is present. -
Page 90: Fan Tray Status Leds
The fan tray is not powered on. Power supply LEDs The HP 10500 2500W AC Power Supply has one AC LED and one DC LED to indicate its operating status. The HP 10500 2400W DC Power Supply has one INP OK LED and one DC/FLT LED to indicate its operating status. - Page 91 Table 52 2400W DC power supply LED description Color Description • The power supply has no power input. • The input voltage is too low, and the power supply is in self protection state. INP OK Green The power input is correct. Green The power supply is outputting power correctly.
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Page 92: Appendix D Cables
Appendix D Cables This chapter describes cables used for connecting network ports. Table 53 Cable description Cable Port type Application RJ-45 Ethernet port at one Connects the console port of the switch to the Console cable end and DB-9 port at the console terminal other end Ethernet twisted pair cable... -
Page 93: Rj-45 Connector
RJ-45 connector An Ethernet twisted pair cable connects network devices through the RJ-45 connectors at the two ends. Figure 46 shows the pinouts of an RJ-45 connector. Figure 46 RJ-45 connector pinout diagram PIN #8 PIN #1 Cable pinouts EIA/TIA cabling specifications define two standards: 568A and 568B for cable pinouts. Standard 568A—Pin 1: white/green stripe, pin 2: green solid, pin 3: white/orange stripe, pin 4: •... - Page 94 Based on pinouts Ethernet twisted pair cables can be classified into straight through and crossover cables based on their pinouts. • Straight-through—The pinouts at both ends comply with standard 568B, as shown in Figure Crossover—The pinouts at one end comply with standard 568B, and those at the other end comply •...
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Page 95: Pin Assignments
Pin assignments Select an Ethernet twisted pair cable according to the RJ-45 Ethernet interface type on your device. An RJ-45 Ethernet interface can be MDI (for routers and PCs) or MDIX (for switches). For the pinouts of RJ-45 Ethernet interfaces, see Table 55 Table Table 55 RJ-45 MDI interface pinouts... -
Page 96: Making An Ethernet Twisted Pair Cable
Making an Ethernet twisted pair cable Cut the cable to a required length with the crimping pliers. Strip off an appropriate length of the cable sheath. The length is typically that of the RJ-45 connector. Untwist the pairs so that they can lay flat, and arrange the colored wires based on the wiring specifications. -
Page 97: Precautions
Multi-mode patch cord—The jacket is orange. It permits transmission over shorter distances. • Patch cords are classified into SC, LC, FC, and so on based on interface type. The length of a patch cord can be 0.5 m (1.64 ft), 1 m (3.28 ft), 2 m (6.56 ft), 3 m (9.84 ft), 5 m (16.40 ft), 10 m (32.81 ft), and so Pigtail cord A pigtail cord is an optical fiber that has an optical connector on one end and a length of exposed fiber on the other. -
Page 98: Sfp+ Cable
Never bend or curve a fiber when connecting it. After a fiber is installed well, the bend radius must • be not less than 40 mm (the minimum dynamic bend radius is 20 D, and the minimum static bend radius is 10 D. D indicates the outer diameter of dust caps). •... -
Page 99: Qsfp+ To Sfp+ Cable
QSFP+ to SFP+ cable A QSFP+ to SFP+ cable is a cable with one QSFP+ module at one end and four SFP+ modules at the other end. Figure 53 QSFP+ to SFP+ cable (1) QSFP+ connector (2) QSFP+ pull latch (3) SFP+ connector (4) SFP+ pull latch... -
Page 100: Appendix E Cabling Recommendations
Appendix E Cabling recommendations When the switch is mounted in a 19-inch standard rack, the interface cables are routed through the cable management brackets, bound at cabling racks on chassis sides, and then routed up or down to pass through the chassis top or the raised floor, depending on the available equipment room condition. The power cords run along the two sides of the chassis and out of the chassis either from the chassis top or the raised floor depending on the equipment room conditions (power distribution cabinet, lightning protection box, connector strip, and so on) of the exchange office. - Page 101 Figure 54 Correct and incorrect cable binding The cable bend radius at connectors must be a minimum of 5 times the cable diameter, and must • be a minimum of twice the cable diameter away from the connectors. Route different types of cables separately (for example, power cords and signal cables). If they are •...
- Page 102 Figure 56 Binding cables where they must be bent Route, bind, and attach excess cables for easy and safe maintenance and correct operation. • Do not tie power cords to slide rails. • When you connect a cable to an articulated part, such as connecting a grounding cable to a •...
- Page 103 Cable bundle diameter (mm) Space between bundles (mm) 200 to 300 Do not tie cables or bundles in a knot. • The metal parts of the crimped cold-pressed terminal blocks (such as air switch) cannot protrude • beyond the blocks.
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Page 104: Appendix F Repackaging The Switch
Appendix F Repackaging the switch This chapter describes how to repackage the switch chassis, power supply, card, mounting bracket, and cable management bracket. Removing cables from the switch Before repackaging the switch, remove all cables such as the power cord, console cable, twisted pair, optical fiber, and grounding cable from the switch. -
Page 105: Removing The Twisted Pair And Optical Fiber
Figure 58 Removing the grounding cable (1) Grounding sign (2) Remove the grounding cable from the chassis (3) Loosen the hex nut on the grounding post of the grounding strip Put the grounding cable into the accessories box. Removing the twisted pair and optical fiber You must remove twisted pairs and optical fibers from all the interfaces of the switch. -
Page 106: Repackaging The Card
Repackaging the card Prepare the anti-static bag and box of the card. Make sure the bag is clean, dry, and not damaged. Remove the transceiver modules from the card. If no transceiver module is installed on the card, go to the next step. For how to remove a transceiver module, see "Replacement procedures."... -
Page 107: Removing Cable Management Brackets And Mounting Brackets
Figure 59 Removing the chassis (10508) from the rack (1) Loosen the captive screws that attach the mounting brackets to the rack (2) Slide the chassis outwards along the slide rails Put the chassis onto the pallet base of the wooden carton. Removing cable management brackets and mounting brackets Before repackaging the switch chassis, remove the cable management brackets and mounting brackets from the chassis. -
Page 108: Repackaging The Switch Chassis
The 10504, 10508, and 10512 provide a cable management bracket at the chassis bottom to route power cords. The procedure for removing the cable management bracket is similar to that of the 10508-V. - Page 109 Figure 62 Installing the screws Cover the chassis with the packing bag, and then tape the bag to the base pallet. Install the side panels to the base pallet. Put the accessories box and mounting bracket box into the wooden carton—at the clearance between the chassis and the wooden panel.
- Page 110 Index Numerics ESD wrist strap, authenticating user interface, 19-inch rack cabling recommendations, general cabling recommendations, binding (cable management), installing cable management brackets, 13, bracket installing cage nuts, 19-inch rack cable management bracket installing mounting brackets, installation, 13, installing slide rails, 19-inch rack cabling recommendations, mounting bracket attachment to chassis, 19-inch rack general cabling recommendations,...
- Page 111 patch cord technical specifications, chassis performance-based type technical 10500 airflow, specifications, 10508-V airflow, pigtail cord technical specifications, 19-inch rack cabling recommendations, pin assignment technical specifications, 19-inch rack general cabling recommendations, pinout technical specifications, 19-inch rack mounting bracket attachment to pinout-based type technical specifications, chassis, QSFP+ cable technical specifications, cooling and ventilation,...
- Page 112 FRU installation, contacting HP, grounding, cooling requirements (installation site), grounding switch through AC power supply PE wire, curvature radius grounding switch through DC power supply RTN cable, wire, fiber cable, grounding the switch, grounding the switch with grounding strip,...
- Page 113 performance-based cable technical switch, specifications, switch through AC power supply PE wire, pin assignment technical specifications, switch through DC power supply RTN wire, pinout-based cable technical specifications, switch with grounding strip, RJ-45 Ethernet port LED description, verifying installation preparations, twisted pair cable technical specifications, examining installation site, hardware 19-inch rack cable management brackets...
- Page 114 SFP module, customer support and resources, SFP+ module, document conventions, site cleanness, documents and manuals, site floor weight support, icons used, site humidity, subscription service, site temperature, support contact information, space requirements, symbols used, switch, websites, switch handling safety recommendations, humidity requirements (installation site), switch on 19-inch rack, tools and equipment,...
- Page 115 LED description verifying IRF fabric configuration, card LED, methods (troubleshooting), CFP port LED, minimum fan tray LED, cable curvature radius, fan tray status LED, fiber cable curvature radius, LPU LEDs, module management Ethernet port LED, FRU installation, MPU active/standby status LED, installing CFP, power supply LED, installing QSFP+,...
- Page 116 network management identifying IRF member switch physical ports, replacement procedures, management Ethernet port LED description, setting up IRF fabric, QSFP+ port LED description, troubleshooting configuration terminal RJ-45 Ethernet port LED description, problems, setting up IRF fabric, troubleshooting interface failure, SFP port LED description, troubleshooting LPU failure, SFP+ port LED description, troubleshooting MPU failure,...
- Page 117 attaching 19-inch rack mounting brackets to installing transceiver module (optional), chassis, installing XFP module, attaching ESD wrist strap, making Ethernet twisted pair cable, configuring authentication on user interface, mounting switch in 19-inch rack, configuring basic access function, mounting switch on workbench, configuring IRF basic settings, planning IRF connections, configuring switch,...
- Page 118 troubleshooting power supply system failure, removing troubleshooting switching fabric module cable management brackets, failure, cables from switch, troubleshooting the switch, console cable, verifying IRF fabric configuration, fan tray, verifying network access configuration, grounding cable, mounting brackets, optical fiber, QSFP+ optical fiber safety precautions, cable technical specifications, power cord, connecting cable,...
- Page 119 general recommendations, replacing transceiver module, grounding, SFP+ module grounding switch through AC power supply PE installing, wire, single-mode grounding switch through DC power supply RTN cable technical specifications, wire, patch cord, grounding the switch, site grounding the switch with grounding strip, cleanness, installation site cleanness, cooling requirements,...
- Page 120 heat dissipation, identifying IRF master switch, technical specifications, 59, identifying IRF member switch physical ports, 100-Mbps SFP transceiver modules, installation, 10-Gigabit SFP+ transceiver cables, installing IRF member switch, 10-Gigabit SFP+ transceiver modules, noise specifications, 10-Gigabit XFP transceiver modules, planning IRF member IDs, cable pinout, powering on, cable type,...
- Page 121 temperature installation preparations, heat dissipation, IRF fabric configuration, installation site requirements, network access configuration, site cooling requirements, temperature requirements (installation site), websites, terminal workbench setting parameters, mounting switch, troubleshooting garbled terminal display, verifying installation preparations, troubleshooting no terminal display, wrist strap (ESD), testing network connectivity, tools needed for installation, topology (IRF fabric),...